Virtual power plant with pumped storage power plant for renewable energy integration

机译：具有抽水蓄能电站的虚拟电站，用于可再生能源整合

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Renewable energy sources such as wind and photovoltaic are highly volatile and their integration into the grid, goes more and more through combining them together with complementary and flexible sources, a concept known as Virtual Power Plant, VPP. Specific control of power plants in a VPP pool lead to a redefinition of their dynamic constraints. Interactions between them and the rest of the grid are complex. System level model and simulation of such grid featuring VPP is necessary and must be used for research as well as for the design phase. This paper illustrates by time domain simulations a situation with a VPP consisting of wind power (200MW), photovoltaic power (100MW) and pumped storage (+/- 250MW), integrated into an islanded grid with a thermal power plant for base load (1300MW). Different control strategies of the pumped storage power plant show how it can improve the overall power quality of the VPP.

机译：风能和光伏等可再生能源极易挥发，它们与电网的整合越来越多地通过将它们与互补且灵活的能源结合在一起而实现，这种概念被称为虚拟电厂（VPP）。 VPP池中电厂的特定控制导致重新定义其动态约束。它们与网格其余部分之间的交互非常复杂。这种具有VPP的网格的系统级模型和仿真是必要的，并且必须用于研究以及设计阶段。本文通过时域仿真说明了由风力发电（200MW），光伏发电（100MW）和抽水蓄能（+/- 250MW）组成的VPP的情况，该发电站已集成到具有基本负荷（1300MW的火力发电厂）的孤岛电网中）。抽水蓄能电站的不同控制策略说明了它如何改善VPP的整体电能质量。

著录项

来源
《International Conference on Electrical Machines》|2014年|1736-1742|共7页
会议地点
作者
Beguin A.; Nicolet C.; Kawkabani B.; Avellan F.;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
photovoltaic power systems; pumped-storage power stations; renewable energy sources; thermal power stations; wind power plants; VPP; islanded grid; photovoltaic power; power 100 MW; power 1300 MW; power 200 MW; pumped storage power plant; renewable energy integration; thermal power plant; virtual power plant; wind power; Frequency control; Integrated circuit modeling; Photovoltaic systems; Renewable energy sources; Wind turbines; Islanded power network; Photovoltaic Power plant; Renewable Energy; Virtual Power Plant; frequency control; hydro power plant; power balance; power quality; pumped storage; wind farm;

机译：光伏发电系统;抽水蓄能电站;可再生能源;火力发电厂;风力发电厂; VPP;孤岛电网;光伏发电;功率100 MW;功率1300 MW;功率200 MW;抽水蓄能电站;可再生能源整合;热电厂;虚拟电厂;风力发电;频率控制;集成电路建模;光伏系统;可再生能源;风力涡轮机;孤岛电网;光伏电厂;可再生能源;虚拟电厂;频率控制;水力发电厂功率平衡电能质量抽水蓄能风电场;

相似文献

外文文献
中文文献
专利

1. USE OF THE FLEXIBILITY CHARACTERISTICS OF HYDROELECTRIC POWER PLANTS AND PUMPED-STORAGE POWER PLANTS IN A POWER SYSTEM WITH RENEWABLE ENERGY SOURCES [J] . Yu. S. Vasilev, V. V. Elistratov, I. G Kudryasheva Hydrotechnical Construction . 2019,第3期

机译：可再生能源电力系统中水力发电厂和抽水蓄能电站柔性特征的应用
2. Dynamic security of islanded power systems with pumped storage power plants for high renewable integration – A study case [J] . Maria Helena Vasconcelos, Pedro Beires, Carlos Leal Moreira, . 2019,第18期

机译：具有泵送存储电厂的岛电系统动态安全性，用于高可再生集成 - 研究案例
3. Phase-change heat storage installation in combined heat and power plants for integration of renewable energy sources into power system [J] . Hu Kang, Chen Lei, Chen Qun, Energy . 2017,第APRa1期

机译：热电联产工厂中的相变储热装置，用于将可再生能源整合到电力系统中
4. WASTEWATER TREATMENT PLANTS AS SYSTEM SERVICE PROVIDER FOR RENEWABLE ENERGY STORAGE AND CONTROL ENERGY IN VIRTUAL POWER PLANTS – A POTENTIAL ANALYSIS [C] . Michael Schafer, Oliver Gretzschel, Theo G. Schmitt, International Renewable Energy Storage Conference and Exhibition . 2015

机译：废水处理设备作为系统服务提供商，用于可再生能量储存和虚拟发电厂控制能量 - 潜在分析
5. THE EFFECTS OF THE LUDINGTON PUMPED STORAGE POWER PROJECT ON FISH PASSAGE THROUGH PUMP-TURBINES AND ON FISH BEHAVIORAL PATTERNS: PART I. AN EVALUATION OF MORTALITY INCURRED BY FISH PASSING THROUGH PUMP-TURBINES AT THE LUDINGTON PUMPED STORAGE POWER PLANT, PART II. MOVEMENT PATTERNS AND ORIENTATION OF FISHES IN THE LUDINGTON PUMPED STORAGE RESERVOIR AS REVEALED BY TRACKING STUDIES. [D] . SERCHUK, FREDRIC MICHAEL. 1976

机译：LUDINGTON泵存储功率项目对通过水轮机通过鱼的鱼群和鱼类行为模式的影响：第一部分。LUDINGTON泵存储的鱼通过水轮机通过鱼所造成的死亡率评估，第二部分。跟踪研究表明，卢丁顿泵浦存储库中鱼的运动模式和鱼的方向。
6. Assessment of environmental impact of biomass power plants to increase the social acceptance of renewable energy technologies [O] . Alessandro Paletto, Silvia Bernardi, Elisa Pieratti, 2019

机译：评估生物质发电厂的环境影响以提高可再生能源技术的社会接受度
7. Wastewater Treatment Plants as System Service Provider for Renewable Energy Storage and Control Energy in Virtual Power Plants – A Potential Analysis [O] . Schäfer Michael, Gretzschel Oliver, Schmitt Theo G., 2015

机译：废水处理厂作为虚拟发电厂中可再生能源存储和控制能源的系统服务提供商–潜力分析

Virtual power plant with pumped storage power plant for renewable energy integration

摘要

著录项

相似文献

相关主题

期刊订阅